唐建新(蘇州大學納米科學技術學院教授)

唐建新,男,漢族,畢業於香港城市大學哲學。蘇州大學納米科學技術學院教授,現任國家發改委OLED工藝技術國家地方聯合工程實驗室副主任、蘇州大學2011計畫辦公室副主任。

基本介紹

  • 中文名:唐建新
  • 國籍:中國
  • 民族:漢族
  • 畢業院校:香港城市大學哲學
  • 主要成就:國家自然科學基金優秀青年基金資助
  • 性別:男
人物經歷,研究方向,主要貢獻,

人物經歷

2002年獲浙江大學學士學位;2006年獲香港城市大學博士學位;2005-2006年任日本千葉大學上野實驗室訪問學者;2006-2007年任香港城市大學超金剛石與先進薄膜研究中心高級研究助理;2007-2008年任日本三菱電機株式會社功率元器件製造所功率元器件晶片設計工程師;2008年加入蘇州大學功能納米與軟物質研究院,被聘為教授,博士生導師。
在Adv. Mater., Adv. Funct. Mater., Adv. Energy Mater., ACS Nano, Sci.Rep., Appl. Phys. Lett.等期刊發表SCI論文100餘篇,申請專利10餘項,撰寫英文專著1部(章)。多次在國際會議做邀請報告,擔任多個國際權威期刊和基金會審稿人。主持和參與973計畫、國家科技重大專項、國家自然科學基金、教育部博士點基金、江蘇省自然基金重點項目等國家級/省部級項目多項。獲得國家基金委“優秀青年科學基金”支持,作為首席科學家承擔科技部青年"973計畫"項目,入選江蘇省“333高層次人才培養工程”中青年科學技術帶頭人、江蘇省“六大人才高峰”高層次人才培養對象。

研究方向

有機光電子材料與器件,包括(1) 半導體界面物理:研究有機/無機和有機異質結界面的電子態結構、電荷注入和輸運過程、界面激子產生和分離機制;(2) 有機發光顯示器件:主要開展白光有機發光二極體在平板顯示及固體照明領域的套用開發,以及瞬態電致發光和載流子複合過程動力學的研究;(3) 有機光伏電池器件:主要從事新型器件結構、光電轉換過程以及結構調控的研究。

主要貢獻

25. Y. Cai, H. X. Wei, J. Li, Q. Y. Bao, X. Zhao, S. T. Lee, Y. Q. Li*, J. X. Tang*, “Mechanism of Cs2CO3 as an n-type dopant in organic electron-transport film”, Applied Physics Letters 2011, Vol 98, 113304.
24. H. X. Wei, J. Li, Z. Q. Xu, Y. Cai, J. X. Tang*, and Y. Q. Li*, “Thermal annealing-induced vertical phase separation of copper phthalocyanine: Fullerene bulk heterojunction in organic photovoltaic cells”, Applied Physics Letters 2010, Vol 97, 083302.
入選Virtual Journal of Nanoscale Science & Technology, Vol. 22, September 6 (2010)
23. Q. Y. Bao, J. P. Yang, Y. Q. Li*, and J. X. Tang*, “Electronic structures of MoO3-based charge generation layer for tandem organic light-emitting diodes”, Applied Physics Letters 2010, Vol 97, 063303.
22. Qin-Ye Bao, Jin-Peng Yang, Jian-Xin Tang*, Yanqing Li*, Chun-Sing Lee , Shuit-Tong Lee, “Interfacial electronic structures of WO3-based intermediate connectors in tandem organic light-emitting diodes”, Organic Electronics2010, Vol 11, 1578-1583.
21. J. P. Yang, Q. Y. Bao, Z. Q. Xu, Y. Q. Li, J. X. Tang*, and S. Shen, “Light out-coupling enhancement of organic light-emitting devices with microlens array”, Applied Physics Letters 2010, Vol 97, 223303.
20. J. X. Tang, M. K. Fung, C. S. Lee, S. T. Lee, “Interface studies of intermediate connectors and their roles in tandem OLEDs”, Journal of Materials Chemistry 2010, 20(13), 2539-2548.
19. J. X. Tang*, M. K. Fung, C. S. Lee, S. T. Lee, “Interface Study of the Intermediate Connectors in Tandem Organic Devices”, Journal of Information Display 2010, 11(1), 1-7. (2010年度韓國信息顯示學會最佳論文獎)
18. J. X. Tang, Y. Q. Li, S. D. Wang, C. S. Lee, and S. T. Lee, “Electronegativity equalization model for interface barrier formation at reactive metal/organic contacts”, Applied Physics Letters 2009, Vol 95, 173303.
17. C. S. Lee, J. X. Tang*, Y. C. Zhou, S. T. Lee, “Interface dipole at metal-organic interfaces: Contribution of metal induced interface states”, Applied Physics Letters 2009, 95(11) 113304.
16. J. X. Tang, Y. C. Zhou, Z. T. Liu, C. S. Lee, S. T. Lee, “Interfacial electronic structures in an organic double-heterostructure photovoltaic cell”, Applied Physics Letters 2008, 93(4) 043512.
15. J. X. Tang, C. S. Lee, M. Y. Chan, S. T. Lee, “Enhanced electrical properties of pentacene based organic thin-film transistors by modifying the gate insulator surface”, Applied Surface Science 2008, 254(23) 7688-7692.
14. Y. C. Zhou, J. X. Tang, Z. T. Liu, C. S. Lee, S. T. Lee, “Slope parameter at Metal-Organic interfaces”, Applied Physics Letters 2008, 93(9) 093502.
13. J. X. Tang, C. S. Lee, S. T. Lee, “Electronic structures of organic/organic heterojunctions: From vacuum level alignment to Fermi level pinning”, Journal of Applied Physics 2007, 101(6) 064504.
入選Virtual Journal of Nanoscale Science & Technology, Vol. 15, Issue 13, 2007.
12. Y. Q. Li, J. X. Tang, H. Wang, J. A. Zapien, Y. Y. Shan, and S. T. Lee, “Heteroepitaxial growth and optical properties of ZnS nanowire arrays on CdS nanoribbons”, Applied Physics Letters 2007, Vol. 90, 093127. – 封面文章
11. J. X. Tang, K. M. Lau, C. S. Lee, S. T. Lee, “Substrate effects on the electronic properties of organic/organic heterojunction”, Applied Physics Letters 2006, 88(23) 232103.
入選Virtual Journal of Nanoscale Science & Technology, Vol. 13, Issue 24, 2006
10. J. X. Tang, C. S. Lee, S. T. Lee, “Chemical bonding and electronic structures at magnesium/copper phthalocyanine interfaces”, Applied Surface Science 2006, 252(11) 3848-3952.
9. J. X. Tang, M. K. Fung, C. S. Lee, S. T. Lee, “Carrier Injection Barrier Formation at Metal/Organic Interfaces”, SID Symposium Digest of Technical Papers 2006, 37(1) 1095-1098. (邀請文章)
8. K. M. Lau, J. X. Tang, H. Y. Sun, C. S. Lee, S. T. Lee, D. H. Yan, “Interfacial electronic structure of copper phthalocyanine and copper hexadecafluoro-phthalocyanine studied by photoemission”, Applied Physics Letters 2006, 88(17) 173513.
7. J. X. Tang, C. S. Lee, S. T. Lee, “Electronegativity model for barrier formation at organic/metal interfaces”, Applied Physics Letters 2005, 87(25) 252110.
6. J. X. Tang, C. S. Lee, S. T. Lee, “Carrier injection barrier at metal-organic contacts: Role of electronegativity”, Proceed. Int. Symp. Super-Functionality Organic Devices, IPAP Conference Proceedings Series, 2005, 6, p. 6-10. (邀請文章)
5. J. X. Tang, C. S. Lee, S. T. Lee, Y. B. Xu, “Electronegativity and charge-injection barrier at organic/metal interfaces”, Chemical Physics Letters 2004, 396(1-3) 92-96.
4. J. X. Tang, Y. Q. Li, X. Dong, S. D. Wang, C. S. Lee, L. S. Hung, S. T. Lee, “Photoemission and vibrational studies of metal/organic interfaces modified by plasma-polymerized fluorocarbon films”, Applied Surface Science 2004, 239(1) 117-124.
3. J. X. Tang, Y. Q. Li, L. R. Zheng, and L. S. Hung, “Anode/organic interface modification by plasma polymerized fluorocarbon films”, Journal of Applied Physics 2004, Vol. 95, 4397 – 4403.
2. J. X. Tang, Y. Q. Li, L. S. Hung, and C. S. Lee, “Photoemission study of hole-injection enchancement in organic electroluminescent devices using a metal/CFx anode”, Applied Physics Letters 2004, Vol. 84, 73 – 75.
1.J. X. Tang, S. W. Tong, C. S. Lee, S. T. Lee, P. M. He, “Photoemission study of interface formation between ytterbium and tris-(8-hydroxyquinoline) aluminum”, Chemical Physics Letters 2003, 380(1-2) 63-69.

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